基本信息
柳林  男  硕导  中国科学院大连化学物理研究所
电子邮件: liulin@dicp.ac.cn
通信地址: 大连市中山路457号大连化物所1901组能源1号楼310
邮政编码:

研究领域

多相催化材料

稀土氧化物纳米材料

合成氨催化

招生信息

每年招收硕士研究生一名

招生专业
080501-材料物理与化学
招生方向
稀土多相催化材料
稀土氧化物纳米材料
合成氨

教育背景

2001-09--2007-01   中国科学院大连化学物理研究所   博士
1996-09--2001-07   北京大学   学士
学历

2001.09-2007.01 大连化物所催化基础国家重点实验室,理学博士学位 

1997.09-2001.07 北京大学化学系,物理化学专业,理学学士学位 

1996.09-1997.07 北京大学数学系 


学位

2001.09-2007.01 大连化物所催化基础国家重点实验室,物理化学专业,获理学博士学位 

1997.09-2001.07 北京大学化学系,物理化学专业,获理学学士学位 

1996.09-1997.07 北京大学数学系 


工作经历

   
工作简历
2013-06~现在, 中国科学院大连化学物理研究所, 副研究员
2007-05~2013-06,中国科学院大连化学物理研究所, 助理研究员
2007-02~2007-04,中国科学院大连化学物理研究所, 临时聘用人员

专利与奖励

   
专利成果
( 1 ) 一种用于氨合成的稀土金属氧化物负载钌催化剂及其应用, 专利授权, 2021, 第 2 作者, 专利号: CN109126787B

( 2 ) 一种用于氨合成的负载型钌团簇催化剂及其制备方法和应用, 发明专利, 2021, 第 1 作者, 专利号: CN112387276A

( 3 ) 一种负载型钌基催化剂的制备方法, 发明专利, 2021, 第 1 作者, 专利号: CN112387274A

( 4 ) 一种稀土氧化物负载过渡金属催化剂在氨分解反应中的应用, 发明专利, 2020, 第 1 作者, 专利号: CN111215086A

( 5 ) 一种以稀土碳酸盐为载体前驱体负载金属催化剂在氨分解反应中的应用, 发明专利, 2020, 第 1 作者, 专利号: CN111215063A

( 6 ) 氨分解制氢的稀土金属氧化物负载钌催化剂及制备和应用, 发明专利, 2019, 第 1 作者, 专利号: CN109954493A

( 7 ) 一种用于氨分解制氢的氧化镁载钌催化剂及其制备和应用, 发明专利, 2018, 第 1 作者, 专利号: CN108160072A

( 8 ) 金属-氨溶液还原二氧化钛制备还原型二氧化钛的方法, 发明专利, 2016, 第 3 作者, 专利号: CN105753043A

( 9 ) 一种多级孔结构共价三嗪类骨架微孔聚合物的制备方法, 发明专利, 2015, 第 3 作者, 专利号: CN105017529A

( 10 ) 一种宏量制备石墨相氮化碳纳米片的方法, 发明专利, 2015, 第 2 作者, 专利号: CN104944392A

( 11 ) 一种宏量制备石墨烯和二维氮化硼晶体材料的方法, 发明专利, 2014, 第 2 作者, 专利号: CN103570003A

( 12 ) 一种表面包覆金属氧化物的介孔氧化硅及其制备和应用, 发明专利, 2011, 第 3 作者, 专利号: CN102059091A

( 13 ) 一种制备硅铝比可变的MWW分子筛材料的方法, 发明专利, 2007, 第 2 作者, 专利号: CN1299987

( 14 ) 一种利用混合模板剂合成MWW结构分子筛的方法, 发明专利, 2006, 第 2 作者, 专利号: CN1234607

( 15 ) 一种合成高硅铝比MWW沸石分子筛的方法, 发明专利, 2005, 第 2 作者, 专利号: CN1594089

( 16 ) 一种催化甲烷氧化偶联制碳二烃的方法, 发明专利, 2005, 第 5 作者, 专利号: CN1696084

( 17 ) 一种后补铝合成高硅MWW分子筛的方法, 发明专利, 2005, 第 2 作者, 专利号: CN1616350

( 18 ) 一种甲烷无氧芳构化催化剂及制备方法和用途, 发明专利, 2005, 第 2 作者, 专利号: CN1616150

( 19 ) 一种用于甲烷无氧芳构化反应的催化剂及制法和应用, 发明专利, 2004, 第 4 作者, 专利号: CN1481936

出版信息

   
发表论文
[1] Zhang, Xilun, Liu, Lin, Wang, Jiemin, Ju, Xiaohua, Si, Rui, Feng, Ji, Guo, Jianping, Chen, Ping. The role of lanthanum hydride species in La2O3 supported Ru cluster catalyst for ammonia synthesis. JOURNAL OF CATALYSIS[J]. 2023, 417: 382-395, http://dx.doi.org/10.1016/j.jcat.2022.12.016.
[2] Feng Ji, Liu Lin, zhang xilun, Wang Jiemin, Ju Xiaohua, Li Ruili, Guo Jianping, He Teng, Chen Ping. Ru nanoparticles on Y2O3 with enhanced metal-support interaction for efficient ammonia synthesis. Catalysis Science & Technology[J]. 2023, 13(3): 844-853, 
[3] Zhang xilun, Liu Lin, Feng Ji, ju xiaohua, Wang Jiemin, Chen Ping. Ru nanoparticles on Pr2O3 as efficient catalyst for production of hydrogen from ammonia decomposition. CATALYSIS LETTERS[J]. 2022, 152(4): 1170-1181, 
[4] Wang, Jiemin, Liu, Lin, Feng, Ji, Zhang, Xilun, Ju, Xiaohua, Chen, Ping. Regulating the interaction of Ru nanoparticles and an Eu2O3 support achieves enhanced activity for ammonia synthesis. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2022, 12(17): 5339-5348, http://dx.doi.org/10.1039/d2cy00646d.
[5] Wang, Jiemin, Liu, Lin, Zhang, Xilun, Yu, Jiafeng, Ju, Xiaohua, Feng, Ji, Guo, Jianping, He, Teng, Chen, Ping. Sub-nanometer Ru clusters on Sm2O3 obtained from a room temperature ion adsorption method for ammonia synthesis. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2022, 12(24): 7501-7509, 
[6] Feng Ji, Liu Lin, Ju Xiaohua, Wang Miaomiao, Zhang Xilun, Wang Jiemin, Chen Ping. Sub-nanometer Ru clusters on ceria nanorods as efficient catalyst for ammonia synthesis under mild conditions. ACS Sustainable Chemistry & Engineering[J]. 2022, 10(31): 10181-10191, 
[7] Zhang Xilun, Liu Lin, Wu Anan, Zhu Junfa, Si Rui, Guo Jianping, Chen Ruting, Jiang, Qike, Ju Xiaohua, Feng Ji, Xiong Zhitao, He Teng, Chen Ping. Synergizing surface hydride species and Ru clusters on Sm2O3 for efficient ammonia synthesis. ACS CATALYSIS[J]. 2022, 12(4): 2178-2190, 
[8] Pei, Qijun, He, Teng, Yu, Yang, Jing, Zijun, Wang, Jintao, Tan, Khai Chen, Guo, Jianping, Liu, Lin, Cao, Hujun, Chen, Ping. Fabrication of oxygen vacancies through assembling an amorphous titanate overlayer on titanium oxide for a catalytic water-gas shift reaction. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2021, 9(5): 2784-2791, http://dx.doi.org/10.1039/d0ta11641f.
[9] Wang, Qianru, Pan, Jaysree, Guo, Jianping, Hansen, Heine Anton, Xie, Hua, Jiang, Ling, Hua, Lei, Li, Haiyang, Guan, Yeqin, Wang, Peikun, Gao, Wenbo, Liu, Lin, Cao, Hujun, Xiong, Zhitao, Vegge, Tejs, Chen, Ping. Ternary ruthenium complex hydrides for ammonia synthesis via the associative mechanism. Nature Catalysis[J]. 2021, 4(11): 959, 
[10] Feng, Ji, Liu, Lin, Ju, Xiaohua, Wang, Jiemin, Zhang, Xilun, He, Teng, Chen, Ping. Highly Dispersed Ruthenium Nanoparticles on Y2O3 as Superior Catalyst for Ammonia Decomposition. CHEMCATCHEM[J]. 2021, 13(6): 1552-1558, https://www.webofscience.com/wos/woscc/full-record/WOS:000614446000001.
[11] Zhang, Xilun, Liu, Lin, Feng, Ji, Ju, Xiaohua, Wang, Jiemin, He, Teng, Chen, Ping. Metal-support interaction-modulated catalytic activity of Ru nanoparticles on Sm2O3 for efficient ammonia decomposition. CATALYSIS SCIENCE & TECHNOLOGY[J]. 2021, 11(8): 2915-2923, http://dx.doi.org/10.1039/d1cy00080b.
[12] Liu Lin, zhang xilun, Xiaohua Ju, Feng Ji, Wang Jiemin, Chen Ping. Ru nanoparticles on Cs-doped MgO superbase as highly efficient catalysts for ammonia synthesis. DALTON TRANSACTIONS[J]. 2021, 50(35): 12074-12078, https://pubs.rsc.org/en/content/articlelanding/2021/dt/d1dt01797g.
[13] Feng, Ji, Zhang, Xilun, Wang, Jiemin, Ju, Xiaohua, Liu, Lin, Chen, Ping. Applications of rare earth oxides in catalytic ammonia synthesis and decomposition. CATALYSIS SCIENCE & TECHNOLOGY. 2021, 11(19): 6330-6343, http://dx.doi.org/10.1039/d1cy01156a.
[14] Zhang, Miao, Liu, Lin, He, Teng, Ju, Xiaohua, Chen, Ping. Molten salt assisted pyrolysis approach for the synthesis of nitrogen-rich microporous carbon nanosheets and its application as gas capture sorbent. MICROPOROUS AND MESOPOROUS MATERIALS[J]. 2020, 300: http://dx.doi.org/10.1016/j.micromeso.2020.110177.
[15] Liu, Jinxia, Ju, Xiaohua, Tang, Chunhua, Liu, Lin, Li, Hui, Chen, Ping. High performance stainless-steel supported Pd membranes with a finger-like and gap structure and its application in NH3 decomposition membrane reactor. CHEMICAL ENGINEERING JOURNAL[J]. 2020, 388: http://dx.doi.org/10.1016/j.cej.2020.124245.
[16] Pei, Qijun, He, Teng, Yu, Yang, Jing, Zijun, Guo, Jianping, Liu, Lin, Xiong, Zhitao, Chen, Ping. Liberating Active Metals from Reducible Oxide Encapsulation for Superior Hydrogenation Catalysis. ACS APPLIED MATERIALS & INTERFACES[J]. 2020, 12(6): 7071-7080, https://www.webofscience.com/wos/woscc/full-record/WOS:000514256400026.
[17] 李慧, 柳林. 大连化学物理研究所研发出高性能新构型钯复合膜并将其应用于氨分解膜反应器. 膜科学与技术[J]. 2020, 40(1): 170-170, http://lib.cqvip.com/Qikan/Article/Detail?id=7101145452.
[18] Yu, Pei, Wu, Han, Guo, Jianping, Wang, Peikun, Chang, Fei, Gao, Wenbo, Zhang, Weijin, Liu, Lin, Chen, Ping. Effect of BaNH, CaNH, Mg3N2 on the activity of Co in NH3 decomposition catalysis. Journal of Energy Chemistry[J]. 2020, 46(7): 16-21, http://lib.cqvip.com/Qikan/Article/Detail?id=7101823273.
[19] Ju, Xiaohua, Liu, Lin, Zhang, Xilun, Feng, Ji, He, Teng, Chen, Ping. Highly Efficient Ru/MgO Catalyst with Surface-Enriched Basic Sites for Production of Hydrogen from Ammonia Decomposition. CHEMCATCHEM[J]. 2019, 11(16): 4161-4170, 
[20] Guo, Jianping, Liu, Lin, Wang, Peikun, Chang, Fei, Ju, Xiaohua, Wu, Guotao, Chen, Ping. Synergy of alkali amide/imide with transition metals in catalytic ammonia decomposition. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY. 2018, 255: http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000435539900438.
[21] Gao, Wenbo, Guo, Jianping, Wang, Peikun, Wang, Qianru, Chang, Fei, Pei, Qijun, Zhang, Weijin, Liu, Lin, Chen, Ping. Production of ammonia via a chemical looping process based on metal imides as nitrogen carriers. Nature Energy[J]. 2018, 3(12): 1067-1075, 
[22] Zhang, Miao, Liu, Lin, Ju, Xiaohua, He, Teng, Chen, Ping. Molten salt assisted synthesis of microporous polyaniline nanosheets with superior gas sorption properties. MICROPOROUSANDMESOPOROUSMATERIALS[J]. 2018, 267: 100-106, http://dx.doi.org/10.1016/j.micromeso.2018.03.023.
[23] Li, Zhao, He, Teng, Matsumura, Daiju, Miao, Shu, Wu, Anan, Liu, Lin, Wu, Guotao, Chen, Ping. Atomically Dispersed Pt on the Surface of Ni Particles: Synthesis and Catalytic Function in Hydrogen Generation from Aqueous Ammonia-Borane. ACS CATALYSIS[J]. 2017, 7(10): 6762-6769, http://dx.doi.org/10.1021/acscatal.7b01790.
[24] Ju, Xiaohua, Liu, Lin, Yu, Pei, Guo, Jianping, Zhang, Xilun, He, Teng, Wu, Guotao, Chen, Ping. Mesoporous Ru/MgO prepared by a deposition-precipitation method as highly active catalyst for producing COX-free hydrogen from ammonia decomposition. APPLIED CATALYSIS B-ENVIRONMENTAL[J]. 2017, 211: 167-175, http://dx.doi.org/10.1016/j.apcatb.2017.04.043.
[25] Zhang, Miao, Pei, Qijun, Chen, Weidong, Liu, Lin, He, Teng, Chen, Ping. Room temperature synthesis of reduced TiO2 and its application as a support for catalytic hydrogenation. RSC ADVANCES[J]. 2017, 7(8): 4306-4311, http://dx.doi.org/10.1039/c6ra26667c.
[26] Zhang, Miao, Liu, Lin, He, Teng, Li, Zhao, Wu, Guotao, Chen, Ping. Microporous Crystalline gamma-Al2O3 Replicated from Microporous Covalent Triazine Framework and Its Application as Support for Catalytic Hydrolysis of Ammonia Borane. CHEMISTRY-AN ASIAN JOURNAL[J]. 2017, 12(4): 470-475, http://cas-ir.dicp.ac.cn/handle/321008/169408.
[27] Li, Zhao, He, Teng, Liu, Lin, Chen, Weidong, Zhang, Miao, Wu, Guotao, Chen, Ping. Covalent triazine framework supported non-noble metal nanoparticles with superior activity for catalytic hydrolysis of ammonia borane: from mechanistic study to catalyst design. CHEMICAL SCIENCE[J]. 2017, 8(1): 781-788, http://cas-ir.dicp.ac.cn/handle/321008/151857.
[28] Liu, Lin, Shi, Quan, Yin, Nan, Zhang, Miao, Liu, Xin, Zheng, Hui, Wu, Guotao, Chen, Ping. Enhanced room-temperature ferromagnetic properties in ultrathin two-dimensional metal-free poly(triazine imide) nanosheets. CARBON[J]. 2017, 124: 486-491, http://dx.doi.org/10.1016/j.carbon.2017.09.009.
[29] Zhang, Miao, Liu, Lin, He, Teng, Wu, Guotao, Chen, Ping. Ionothermal synthesis of two-dimensional microporous carbonaceous polymer nanosheets and its application as high-performance CO 2 capture sorbent. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY. 2016, 252: https://www.webofscience.com/wos/woscc/full-record/WOS:000431460403104.
[30] Yu, Pei, Guo, Jianping, Liu, Lin, Wang, Peikun, Chang, Fei, Wang, Han, Ju, Xiaohua, Chen, Ping. Effects of Alkaline Earth Metal Amides on Ru in Catalytic Ammonia Decomposition. JOURNAL OF PHYSICAL CHEMISTRY C[J]. 2016, 120(5): 2822-2828, http://cas-ir.dicp.ac.cn/handle/321008/171230.
[31] Zhang, Miao, Liu, Lin, He, Teng, Wu, Guotao, Chen, Ping. Synthesis of Two-dimensional Microporous Carbonaceous Polymer Nanosheets and Their Application as High-performance CO2 Capture Sorbent. CHEMISTRY-AN ASIAN JOURNAL[J]. 2016, 11(12): 1849-1855, http://cas-ir.dicp.ac.cn/handle/321008/170410.
[32] Yu, Pei, Guo, Jianping, Liu, Lin, Wang, Peikun, Wu, Guotao, Chang, Fei, Chen, Ping. Ammonia Decomposition with Manganese Nitride-Calcium Imide Composites as Efficient Catalysts. CHEMSUSCHEM[J]. 2016, 9(4): 364-369, http://cas-ir.dicp.ac.cn/handle/321008/171048.
[33] Zhang, Miao, Liu, Lin, He, Teng, Wu, Guotao, Chen, Ping. Melamine assisted solid exfoliation approach for the synthesis of few layered fluorinated graphene nanosheets. MATERIALS LETTERS[J]. 2016, 171: 191-194, http://cas-ir.dicp.ac.cn/handle/321008/171138.
[34] Liu, Lin, Wu, Guotao, Chen, Weidong, Xiong, Zhitao, He, Teng, Chen, Ping. Synthesis and hydrogen storage properties of lithium borohydride urea complex. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY[J]. 2015, 40(1): 429-434, http://dx.doi.org/10.1016/j.ijhydene.2014.11.023.
[35] Chang, Fei, Guo, Jianping, Wu, Guotao, Liu, Lin, Zhang, Miao, He, Teng, Wang, Peikun, Yu, Pei, Chen, Ping. Covalent triazine-based framework as an efficient catalyst support for ammonia decomposition. RSC ADVANCES[J]. 2015, 5(5): 3605-3610, https://www.webofscience.com/wos/woscc/full-record/WOS:000346405200058.
[36] He, Teng, Liu, Lin, Wu, Guotao, Chen, Ping. Covalent triazine framework-supported palladium nanoparticles for catalytic hydrogenation of N-heterocycles. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2015, 3(31): 16235-16241, http://cas-ir.dicp.ac.cn/handle/321008/146432.
[37] Liu, Lin, Zhang, Miao, Xiong, Zhitao, Hu, Daqiang, Wu, Guotao, Chen, Ping. Ammonia borane assisted solid exfoliation of graphite fluoride for facile preparation of fluorinated graphene nanosheets. CARBON[J]. 2015, 81: 702-709, http://dx.doi.org/10.1016/j.carbon.2014.10.008.
[38] 蔡永胜, 徐维亮, 柳林, 吴国涛, 熊智涛, 陈萍. Amidoboranes-Formation and Application. 8th international symposium “hydrogen & energy”. 2014, 33, http://159.226.238.44/handle/321008/120002.
[39] Chen, Juner, He, Teng, Wu, Guotao, Xiong, Zhitao, Liu, Lin, Ju, Xiaohua, Chen, Ping. Lithium Borohydride Ethylenediaminates: A Case Study of Solid-State LiBH4-Organic Amine Complexes. JOURNAL OF PHYSICAL CHEMISTRY C[J]. 2014, 118(25): 13451-13459, http://cas-ir.dicp.ac.cn/handle/321008/144447.
[40] Chu, Hailiang, Qiu, Shujun, Liu, Lin, Zou, Yongjin, Xiang, Cuili, Zhang, Huanzhi, Xu, Fen, Sun, Lixian, Zhou, Huaiying, Wu, Guotao. Significantly enhanced dehydrogenation properties of calcium borohydride combined with urea. DALTON TRANSACTIONS[J]. 2014, 43(41): 15291-15294, http://dx.doi.org/10.1039/c4dt01355g.
[41] 柳林, 张淼, ZhitaoXiong, 胡大强, 吴国涛, 陈萍. Ammonia borane assisted solid exfoliation of graphite fluoride for facile synthesis of fluorinated graphene nanosheets. CARBON[J]. 2014, 702, http://cas-ir.dicp.ac.cn/handle/321008/144314.
[42] 柳林, 熊智涛, 胡大强, 吴国涛, Bin Liu, 陈萍. Solid exfoliation of hexagonal BN crystals for synthesis of few-layer BN nanosheets. CHEMISTRY LETTERS[J]. 2013, 42(11): 1415, http://159.226.238.44/handle/321008/119550.
[43] Liu, Lin, Xiong, Zhitao, Hu, Daqiang, Wu, Guotao, Chen, Ping. Production of high quality single- or few-layered graphene by solid exfoliation of graphite in the presence of ammonia borane. CHEMICAL COMMUNICATIONS[J]. 2013, 49(72): 7890-7892, http://159.226.238.44/handle/321008/137837.
[44] Liu, Lin, Xiong, Zhitao, Hu, Daqiang, Wu, Guotao, Liu, Bin, Chen, Ping. Solid Exfoliation of Hexagonal Boron Nitride Crystals for the Synthesis of Few-layer Boron Nitride Nanosheets. CHEMISTRY LETTERS[J]. 2013, 42(11): 1415-1416, http://159.226.238.44/handle/321008/137549.
[45] Liu, Lin, Hu, Daqiang, He, Teng, Zhang, Yao, Wu, Guotao, Chu, Hailiang, Wang, Peikun, Xiong, Zhitao, Chen, Ping. Lithium borohydride-melamine complex as a promising material for chemical hydrogen storage. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2013, 552: 98-101, http://dx.doi.org/10.1016/j.jallcom.2012.09.100.
[46] Zhang Jing, He Teng, Liu Bin, Liu Lin, Zhao Zelun, Hu Daqiang, Ju Xiaohua, Wu Guotao, Chen Ping. Effects of graphitic carbon nitride on the dehydrogenation of ammonia borane. CHINESE JOURNAL OF CATALYSIS[J]. 2013, 34(7): 1303-1311, http://dx.doi.org/10.1016/S1872-2067(12)60566-X.
[47] 张静, 何腾, 刘彬, 柳林, 赵泽伦, 胡大强, 鞠晓花, 吴国涛, 陈萍. 石墨型氮化碳对氨硼烷放氢性能的影响. 催化学报[J]. 2013, 34(7): 1303-1311, http://lib.cqvip.com/Qikan/Article/Detail?id=46560504.
[48] Liu Lin, Xiong Zhitao, Hu Daqiang, Wu Guotao, Chen Ping. Production of high quality single- or few-layered graphene by solid exfoliation of graphite in presence of ammonia borane. CHEMICAL COMMUNICATIONS[J]. 2013, 49(72): 7890, http://159.226.238.44/handle/321008/119593.
[49] 柳林, 胡大强, 王培坤, 熊智涛. Lithium Borohydride-Melaimine Complex as a Promising Material for Chemical Hydrogen Storage. 5th world hydrogen technologies convention. 2013, 186, http://159.226.238.44/handle/321008/120200.
[50] Wan, Huihui, Liu, Lin, Li, Cunman, Xue, Xingya, Liang, Xinmiao. Facile synthesis of mesoporous SBA-15 silica spheres and its application for high-performance liquid chromatography. JOURNAL OF COLLOID AND INTERFACE SCIENCE[J]. 2009, 337(2): 420-426, http://dx.doi.org/10.1016/j.jcis.2009.05.065.
[51] 刘斌, 张云, 涂宝峰, 柳林, 董永来, 程谟杰. 中温固体氧化物燃料电池NiO/YSZ阳极的还原过程. 催化学报[J]. 2009, 29(10): 979-986, http://159.226.238.44/handle/321008/102417.
[52] 岳响玲, 柳林, 张敏, 杨敏, 董永来, 程谟杰. 中温固体氧化物燃料电池Sc掺杂锰酸锶镧阴极材料. 催化学报[J]. 2009, 30(2): 95-103, http://lib.cqvip.com/Qikan/Article/Detail?id=29600874.
[53] Yue Xiangling, Liu Lin, Zhang Min, Yang Min, Dong Yonglai, Cheng Mojie. Scandium-Doped La0.8Sr0.2MnO3-delta Cathode Materials for Intermediate-Temperature Solid Oxide Fuel Cells. CHINESE JOURNAL OF CATALYSIS[J]. 2009, 30(2): 95-103, http://159.226.238.44/handle/321008/141558.
[54] 岳响玲, 闫爱宇, 张敏, 柳林, 董永来, 程谟杰. Investigation on scandium-doped manganate La0.8Sr0.2Mn1−xScxO3−δ cathode for intermediate temperaturesolid oxide fuel cells. JOURNAL OF POWER SOURCES[J]. 2008, 185(2): 691-697, http://159.226.238.44/handle/321008/101197.
[55] Liu Bin, Zhang Yun, Tu Baofeng, Liu Lin, Dong Yonglai, Cheng Mojie. The Reduction Process of a NiO/YSZ Anode for Intermediate Temperature Solid Oxide Fuel Cells. CHINESE JOURNAL OF CATALYSIS[J]. 2008, 29(10): 979-986, http://159.226.238.44/handle/321008/140957.
[56] Yue, Xiangling, Yan, Aiyu, Zhang, Min, Liu, Lin, Dong, Yonglai, Cheng, Mojie. Investigation on scandium-doped manganate La0.8Sr0.2Mn1-xScxO3-delta cathode for intermediate temperaturesolid oxide fuel cells. JOURNAL OF POWER SOURCES[J]. 2008, 185(2): 691-697, http://dx.doi.org/10.1016/j.jpowsour.2008.08.038.
[57] Liu, Lin, Ma, Ding, Zheng, Heng, Li, Xiujie, Cheng, Mojie, Bao, Xinhe. Synthesis and characterization of microporous carbon nitride. MICROPOROUS AND MESOPOROUS MATERIALS[J]. 2008, 110(2-3): 216-222, http://dx.doi.org/10.1016/j.micromeso.2007.06.012.
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[62] 柳林, 程谟杰, 马丁, 胡刚, 潘秀莲, 包信和. Synthesis; characterization; and catalytic properties of MWW zeolite with variable Si/Al ratios. MICROPOROUS MESOPOROUS MATERIALS[J]. 2006, 94(1—3): 304-312, http://159.226.238.44/handle/321008/98051.
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科研活动

   
科研项目
( 1 ) 稀土氧化物负载亚纳米钌团簇催化剂的制备及其在氨分解制氢中的应用, 负责人, 国家任务, 2022-01--2025-01
( 2 ) 多氢源制氢、储氢、加氢、用氢示范, 负责人, 中国科学院计划, 2021-07--2023-06
( 3 ) 超深度氢氮分离的纯化膜放大制备及其反应器开发, 负责人, 国家任务, 2022-12--2026-12

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陈贺同  硕士研究生  080501-材料物理与化学